Chaos
From Wikipedia, the free encyclopedia
Chaos (derived from the Ancient Greek Χάος, Chaos) typically refers to a state of disorder. In ancient Greece, it referred to the initial state of the universe, and, by extension, space, darkness, or an abyss.[1] In modern English, it is used in classical studies with this original meaning; in mathematics and science to refer to a very specific kind of unpredictability; and informally to mean a state of confusion.[2]
[edit] Chaos in mythology and literature
In Greek myth, Chaos is the original dark void from which everything else appeared. According to Hesiod's Theogony (the origin of the gods), Chaos was the nothingness out of which the first objects of existence appeared. In a similar way, the book of Genesis in the Bible refers to the earliest conditions of the Earth as "without form, and void",[3] while Ovid's Metamorphoses describes the initial state of the Universe as:
Rather a rude and indigested mass:
A lifeless lump, unfashion'd, and unfram'd,
Of jarring seeds; and justly Chaos nam'd.
No sun was lighted up, the world to view;
No moon did yet her blunted horns renew:
Nor yet was Earth suspended in the sky,
Nor pois'd, did on her own foundations lye:
Nor seas about the shores their arms had thrown;
But earth, and air, and water, were in one.
Thus air was void of light, and earth unstable,
And water's dark abyss unnavigable.[4]
[edit] Scientific and mathematical chaos
Mathematically, chaos means deterministic behaviour which is very sensitive to its initial conditions.[5] In other words, infinitesimal perturbations of initial conditions for a chaotic dynamic system lead to large variations in behaviour.
Chaotic systems consequently look random but aren't. They are actually deterministic systems governed by physical or mathematical laws (predictable in principle, if you have enough information), that are impossible to predict in practice beyond a certain point. A commonly used example is weather forecasting, which is only possible up to about a week ahead.[6]
Edward Lorenz and Henri Poincaré were early pioneers of chaos theory, and James Gleick's 1987 book Chaos: Making a New Science helped to popularise the field. A number of philosophers have used the existence of chaos in this sense in arguments about free will.
More recently, computer scientist Christopher Langton in 1990 coined the phrase "edge of chaos" to refer to the behaviour of certain classes of cellular automata.[7] The phrase has since come to refer to a metaphor that some physical, biological, economic, and social systems operate in a region where complexity is maximal, balanced between order, on the one hand, and randomness or chaos, on the other.
[edit] Notes
- ^ Henry Liddell and Robert Scott, A Greek-English Lexicon, online at the Perseus Project, 2007.
- ^ Merriam-Webster Online Dictionary, accessed 4 April 2009.
- ^ The Holy Bible, King James Version, online.
- ^ Ovid, Metamorphoses, Book 1, online
- ^ Saber N. Elaydi, Discrete Chaos, Chapman & Hall/CRC, 1999, page 117.
- ^ Robert G. Watts, Global Warming and the Future of the Earth, Morgan & Claypool, 2007, page 17.
- ^ Christopher G. Langton. "Computation at the edge of chaos". Physica D, 42, 1990.
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